Unconventional reservoir characterization and formation evaluation: a case study of a tight sandstone reservoir in West Africa
Unconventional reservoir characterization and formation evaluation: a case study of a tight sandstone reservoir in West Africa
Unconventional reservoirs, including gas shales and tight gas sands, have gained prominence in the energy sector due to technological advancements and escalating energy demands. The oil industry is eagerly refining techniques to decipher these reservoirs, aiming to reduce data collection costs and uncertainties in reserve estimations. Characteristically, tight reservoirs exhibit low matrix porosity and ultra-low permeability, necessitating artificial stimulation for enhanced production. The efficacy of the stimulation hinges on the organic material distribution, the rock’s mechanical attributes, and the prevailing stress field. Comprehensive petrophysical analysis, integrating standard and specialized logs, core analyses, and dynamic data, is pivotal for a nuanced understanding of these reservoirs. This ensures a reduction in prediction uncertainties, with parameters like shale volume, porosity, and permeability being vital. This article delves into an intricate petrophysical evaluation of the Nene field, a West African unconventional reservoir. It underscores the geological intricacies of the field, the pivotal role of data acquisition, and introduces avant-garde methodologies for depth matching, rock typing, and the estimation of permeability. This research highlights the significance of unconventional reservoir exploration in today’s energy milieu, offering a granular understanding of the Nene field’s geological challenges and proffering a blueprint for analogous future endeavours in unconventional reservoirs.
unconventional reservoirs; formation evaluation; reservoir characteristics; well logging; effective porosity; permeability, effective porosity, reservoir characteristics, permeability, unconventional reservoirs, well logging, formation evaluation
Gharavi, Amir
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Abbas, Karrar A.
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Hassan, Mohamed G.
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Haddad, Malik
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Ghoochaninejad, Hesam
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Alasmar, Reham
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Al-Saegh, Salam
a5220645-dc1f-4858-b96d-4c1fd78119ef
Yousefi, Paria
8a3a31ce-7957-4ad2-89d3-f2fc0949725f
Shigidi, Ihab
c6909a31-6709-45db-8247-3fe1b573753b
November 2023
Gharavi, Amir
8b034950-16af-4a7f-ba16-b91390d98c0e
Abbas, Karrar A.
850efb1f-29be-4977-a200-c653ddf7374f
Hassan, Mohamed G.
ce323212-f178-4d72-85cf-23cd30605cd8
Haddad, Malik
cdc55972-df6f-492d-8ed0-b022e19b912f
Ghoochaninejad, Hesam
afaf960f-0c26-48ad-9244-766e05adc974
Alasmar, Reham
3d6f1d29-51c5-4016-8704-a411412bdb44
Al-Saegh, Salam
a5220645-dc1f-4858-b96d-4c1fd78119ef
Yousefi, Paria
8a3a31ce-7957-4ad2-89d3-f2fc0949725f
Shigidi, Ihab
c6909a31-6709-45db-8247-3fe1b573753b
Gharavi, Amir, Abbas, Karrar A., Hassan, Mohamed G., Haddad, Malik, Ghoochaninejad, Hesam, Alasmar, Reham, Al-Saegh, Salam, Yousefi, Paria and Shigidi, Ihab
(2023)
Unconventional reservoir characterization and formation evaluation: a case study of a tight sandstone reservoir in West Africa.
Energies, 16 (22), [7572].
(doi:10.3390/en16227572).
Abstract
Unconventional reservoirs, including gas shales and tight gas sands, have gained prominence in the energy sector due to technological advancements and escalating energy demands. The oil industry is eagerly refining techniques to decipher these reservoirs, aiming to reduce data collection costs and uncertainties in reserve estimations. Characteristically, tight reservoirs exhibit low matrix porosity and ultra-low permeability, necessitating artificial stimulation for enhanced production. The efficacy of the stimulation hinges on the organic material distribution, the rock’s mechanical attributes, and the prevailing stress field. Comprehensive petrophysical analysis, integrating standard and specialized logs, core analyses, and dynamic data, is pivotal for a nuanced understanding of these reservoirs. This ensures a reduction in prediction uncertainties, with parameters like shale volume, porosity, and permeability being vital. This article delves into an intricate petrophysical evaluation of the Nene field, a West African unconventional reservoir. It underscores the geological intricacies of the field, the pivotal role of data acquisition, and introduces avant-garde methodologies for depth matching, rock typing, and the estimation of permeability. This research highlights the significance of unconventional reservoir exploration in today’s energy milieu, offering a granular understanding of the Nene field’s geological challenges and proffering a blueprint for analogous future endeavours in unconventional reservoirs.
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energies-16-07572
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More information
Accepted/In Press date: 31 October 2023
e-pub ahead of print date: 14 November 2023
Published date: November 2023
Additional Information:
Funding Information:
The authors extend their appreciation to the Deanship of Scientific Research at King Khalid University for funding this work as a large-group Research Project under grant number RGP2/211/44.
Publisher Copyright:
© 2023 by the authors.
Keywords:
unconventional reservoirs; formation evaluation; reservoir characteristics; well logging; effective porosity; permeability, effective porosity, reservoir characteristics, permeability, unconventional reservoirs, well logging, formation evaluation
Identifiers
Local EPrints ID: 484332
URI: http://eprints.soton.ac.uk/id/eprint/484332
ISSN: 1996-1073
PURE UUID: df109be7-f134-402e-a2ae-b8827833b2c6
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Date deposited: 15 Nov 2023 18:11
Last modified: 18 Mar 2024 03:55
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Contributors
Author:
Amir Gharavi
Author:
Karrar A. Abbas
Author:
Malik Haddad
Author:
Hesam Ghoochaninejad
Author:
Reham Alasmar
Author:
Salam Al-Saegh
Author:
Paria Yousefi
Author:
Ihab Shigidi
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